2018
DOI: 10.1016/j.bmcl.2018.01.007
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Regioselective and efficient enzymatic synthesis of antimicrobial andrographolide derivatives

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Cited by 16 publications
(10 citation statements)
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“…Terpenoids are another group of compounds that undergo enzymatic modifications, and terpenoids such as geraniol, citronellol or essential oils have also been used to obtain flavour compounds (Staudt et al 2020 ). Patil et al ( 2018 ) using Amano lipase AK ( Pseudomonas fluorescens ) synthesized five different compounds via transesterification of vinyl esters with andrographolide, a diterpene and major constituent of Andrographis paniculata with confirmed pharmacological activities. Andrographolide derivatives exhibited higher antibacterial activity than their precursor, and andrographolide-14-propionate (Fig.…”
Section: Application Of Biocatalysis In the Synthesis Of Lipophilic Antioxidants And Antimicrobial Compoundsmentioning
confidence: 99%
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“…Terpenoids are another group of compounds that undergo enzymatic modifications, and terpenoids such as geraniol, citronellol or essential oils have also been used to obtain flavour compounds (Staudt et al 2020 ). Patil et al ( 2018 ) using Amano lipase AK ( Pseudomonas fluorescens ) synthesized five different compounds via transesterification of vinyl esters with andrographolide, a diterpene and major constituent of Andrographis paniculata with confirmed pharmacological activities. Andrographolide derivatives exhibited higher antibacterial activity than their precursor, and andrographolide-14-propionate (Fig.…”
Section: Application Of Biocatalysis In the Synthesis Of Lipophilic Antioxidants And Antimicrobial Compoundsmentioning
confidence: 99%
“…8 a) and andrographolide-14-butanoate (Fig. 8 b) showed the highest antibacterial activity against E. coli and S. aureus with MIC ranging from 4–8 µg/mL, increased cell membrane permeability and low haemolysis activity (Patil et al 2018 ).
Fig.
…”
Section: Application Of Biocatalysis In the Synthesis Of Lipophilic Antioxidants And Antimicrobial Compoundsmentioning
confidence: 99%
“…Natural products have been used extensively as traditional medicines for the treatment of various diseases because of their privileged structural diversity. , Andrographolide ( 1 ), one of the bicyclic labdane diterpenoids mainly isolated from the leaves of Andrographis paniculata (AP) Nees (family: Acanthaceae ), is also regarded as a significant natural product having multiple pharmacological properties. The synthetically modified andrographolide ( 1 ) derivatives were also reported for promising biological activities such as antibacterial, antimicrobial, , antihepatotoxic, , anti-HIV, , cardiovascular effects, anticancer, anti-inflammatory, antimalarial, antiviral, antituberculosis, , antidiabetic, and antioxidant. , Many anticancer mechanisms have been accepted for andrographolide ( 1 ) and its derivatives, including cytotoxicity against cancer cell, apoptosis method, and cell-cycle arrest mechanism. Our group is actively engaged in the development of biologically active natural products and synthetic scaffolds as part of a continuing effort to discover new and more effective anticancer agents. , Previous studies of the structure–activity relationships (SARs) of andrographolide have shown that esters on hydroxyl groups present at the C-3, C-19, and C-14 positions enhance pharmacological activities of andrographolide ( 1 ) relevant to its anticancer activity; e.g.…”
Section: Introductionmentioning
confidence: 99%
“…Due to this plant's great therapeutic potential, most related research has been performed on the structural modi cation of andrographolide. This research has mainly included functionalization of the 3, 14, and 19-hydroxyl groups [19][20][21][22][23]; Δ 8,17 double-bond oxidation [24][25][26]; C-15's replacement with the alkylidenyl group [27,28]; Δ 12,13 -alkene isomerization [29]; and the substitution of C-12 with electron-rich groups [30][31][32][33]. In recent years, some novel andrographolide analogs were developed via lactone-bioisosteric versatile catalyst for allylic C-H oxidation which allows for the construction of useful C-O, C-N, and C-C bonds directly from relatively inert allylic C-H bonds.…”
Section: Introductionmentioning
confidence: 99%